Hybrid high voltage direct current converter station and operation method therefor

1 . A hybrid rectifier station for high voltage direct current system, including: at least one AC bus; at least one line commutated converter configured to convert a portion of AC power supplied from the at least one AC bus to DC power transmitted on HVDC transmission line of the high voltage direct current system thereby generating reactive power demand; and at least one voltage source converter; wherein: the at least one line commutated converter and the at least one voltage source converter are coupled in parallel to the HVDC transmission line; and the at least one voltage source converter is configured to compensate the reactive power demand via the parallel coupling while converting another portion of the AC power supplied from the at least one AC bus to DC power transmitted on the HVDC transmission line. 2 . The hybrid rectifier station according to claim 1 , wherein: the AC power supplied from the at least one AC bus consists of the portion converted by the at least one line commutated converter and the another portion converted by the at least one voltage source converter. 3 . The hybrid rectifier station according to claim 1 , wherein: the at least one line commutated converter is further configured to convert the portion of the AC power by regulating its current so as to transmit a first amount of active power thereby generate a second amount of the reactive power demand; the at least one voltage source converter is further configured to regulate the at least one AC bus voltage so as to compensate the second amount of reactive power demand. 4 . The hybrid rectifier station according to claim 1 , wherein: the at least one line commutated converters are coupled in series to the HVDC transmission line; and the at least one voltage source converters are coupled in series to the HVDC transmission line. 5 . The hybrid rectifier station according to claim 1 , wherein: the at least one voltage source converter defines a black start current transmission path. 6 . A method for transmitting electric power via a high voltage direct current system, wherein: a hybrid rectifier station of the high voltage direct current system includes at least one AC bus, and at least one line commutated converter and at least one voltage source converter being coupled in parallel to the at least one AC bus, the method includes: supplying AC power via the at least one AC bus; converting a portion of AC power supplied from the at least one AC bus to DC power by the at least one line commutated converter thereby generating reactive power demand; transmitting the DC power converted by the at least one line commutated converter via HVDC transmission line of the high voltage direct current system; compensating the reactive power demand via the at least one AC bus while converting another portion of the AC power supplied from the at least one AC bus to DC power by the at least one voltage source converter; and transmitting the DC power converted by the at least one voltage source converter via the HVDC transmission line. 7 . The method for transmitting electric power according to claim 6 , wherein: the AC power supplied from the at least one AC bus consists of the portion converted by the at least one line commutated converter and the another portion converted by the at least one voltage source converter 8 . The method for transmitting electric power according to claim 6 , wherein: the conversion of the portion of the AC power is by means of regulating current of the at least one line commutated converter so as to transmit a first amount of active power thereby generate a second amount of the reactive power demand; and the compensation of the second amount of reactive power demand is by means of regulating the at least one AC bus voltage. 9 . A hybrid inverter station for a high voltage direct current system, including: at least one AC bus; at least one line commutated converter configured to convert a portion of DC power supplied from HVDC transmission line of the high voltage direct current system to AC power transmitted on the at least one AC bus thereby generating reactive power demand; and at least one voltage source converter; wherein: the at least one line commutated converter and the at least one voltage source converter are coupled in parallel to the HVDC transmission line; and the at least one voltage source converter is configured to compensate the reactive power demand via the parallel coupling while converting another portion of the DC power supplied from the HVDC transmission line to DC power transmitted on the at least one AC bus. 10 . The hybrid inverter station according to claim 9 , wherein: the AC power transmitted on the at least one AC bus consists of the portion converted by the at least one line commutated converter and the another portion converted by the at least one voltage source converter. 11 . The hybrid inverter station according to claim 9 , wherein: the at least one line commutated converter is further configured to convert the portion of the DC power by regulating its current so as to transmit a first amount of active power thereby generate a second amount of the reactive power demand; the at least one voltage source converter is further configured to regulate the at least one AC bus voltage so as to compensate the second amount of reactive power demand. 12 . The hybrid inverter station according to any of claim 9 , wherein: the at least one line commutated converters are coupled in series to the HVDC transmission line; and the at least one voltage source converters are coupled in series to the HVDC transmission line. 13 . A method for transmitting electric power via a high voltage direct current system, wherein: a hybrid inverter station of the high voltage direct current system includes at least one AC bus, and at least one line commutated converter and at least one voltage source converter being coupled in parallel to the at least one AC bus, the method includes: converting a portion of DC power supplied from HVDC transmission line of the high voltage current system to AC power by the at least one line commutated converter thereby generating reactive power demand; transmitting the AC power converted by the at least one line commutated converter via the at least one AC bus; compensating the reactive power demand via the at least one AC bus while converting another portion of the DC power supplied from the HVDC transmission line to AC power by the at least one voltage source converter; and transmitting the AC power converted by the at least one voltage source converter via the at least one AC bus. 14 . The method for transmitting electric power according to claim 13 , wherein: the AC power transmitted on the at least one AC bus consists of the portion converted by the at least one line commutated converter and the another portion converted by the at least one voltage source converter. 15 . The method for transmitting electric power according to claim 13 , wherein: the conversion of the portion of the DC power is by means of regulating current of the at least one line commutated converter so as to transmit a first amount of active power thereby generate a second amount of the reactive power demand; and the compensation of the second amount of reactive power demand is by means of regulating the at least one AC bus voltage. 16 . The hybrid rectifier station according to claim 2 , wherein: the at least one line commutated converter is further configured to convert the portion of the AC power by regulating its curr